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| author |  Luca Fedeli <luca.fedeli@cea.fr>
| 2019-11-29 10:38:09 +0100 |
|---|---|---|
| committer | Luca Fedeli <luca.fedeli@cea.fr>
| 2019-11-29 10:38:09 +0100 |
| commit | 9314ae556f7a1e586b619619414dddf282c85ecc (patch) | |
| tree | 6d044f8cfa6377bb2118f3731e34a088cd8d0606 /Examples/Modules/relativistic_space_charge_initialization/analysis.py | |
| parent | 5d7940bf90820207e763ad762003f8c101904234 (diff) | |
| parent | 616a6aaedc186ef4b08a5a0bd2858b6bd747c968 (diff) | |
| download | WarpX-9314ae556f7a1e586b619619414dddf282c85ecc.tar.gz WarpX-9314ae556f7a1e586b619619414dddf282c85ecc.tar.zst WarpX-9314ae556f7a1e586b619619414dddf282c85ecc.zip | |
Merge remote-tracking branch 'upstream/dev' into qed_evolve_optical_depth
Diffstat (limited to 'Examples/Modules/relativistic_space_charge_initialization/analysis.py')
| -rwxr-xr-x | Examples/Modules/relativistic_space_charge_initialization/analysis.py | 75 |
1 files changed, 75 insertions, 0 deletions
diff --git a/Examples/Modules/relativistic_space_charge_initialization/analysis.py b/Examples/Modules/relativistic_space_charge_initialization/analysis.py new file mode 100755 index 000000000..aad4534f5 --- /dev/null +++ b/Examples/Modules/relativistic_space_charge_initialization/analysis.py @@ -0,0 +1,75 @@ +#! /usr/bin/env python +""" +This script checks the space-charge initialization routine, by +verifying that the space-charge field of a Gaussian beam corresponds to +the expected theoretical field. +""" +import sys +import yt +import numpy as np +import matplotlib.pyplot as plt +import scipy.constants as scc +from scipy.special import gammainc +yt.funcs.mylog.setLevel(0) + +# Parameters from the Simulation +Qtot = -1.e-20 +r0 = 2.e-6 + +# Open data file +filename = sys.argv[1] +ds = yt.load( filename ) +# Extract data +ad0 = ds.covering_grid(level=0, left_edge=ds.domain_left_edge, dims=ds.domain_dimensions) +Ex_array = ad0['Ex'].to_ndarray().squeeze() +By_array = ad0['By'].to_ndarray() + +# Extract grid coordinates +Nx, Ny, Nz = ds.domain_dimensions +xmin, ymin, zmin = ds.domain_left_edge.v +Lx, Ly, Lz = ds.domain_width.v +x = xmin + Lx/Nx*(0.5+np.arange(Nx)) +y = ymin + Ly/Ny*(0.5+np.arange(Ny)) +z = zmin + Lz/Nz*(0.5+np.arange(Nz)) + +# Compute theoretical field +x_2d, y_2d, z_2d = np.meshgrid(x, y, z, indexing='ij') +r2 = x_2d**2 + y_2d**2 +factor = Qtot/scc.epsilon_0/(2*np.pi*r2) * (1-np.exp(-r2/(2*r0**2))) +factor_z = 1./(2*np.pi)**.5/r0 * np.exp(-z_2d**2/(2*r0**2)) +Ex_th = factor*factor_z*x_2d +Ey_th = factor*factor_z*y_2d + +# Plot theory and data +def make_2d(arr): + if arr.ndim == 3: + return arr[:,Ny//2,:] + else: + return arr +plt.figure(figsize=(10,10)) +plt.subplot(221) +plt.title('Ex: Theory') +plt.imshow(make_2d(Ex_th)) +plt.colorbar() +plt.subplot(222) +plt.title('Ex: Simulation') +plt.imshow(make_2d(Ex_array)) +plt.colorbar() +plt.subplot(223) +plt.title('By: Theory') +plt.imshow(make_2d(Ex_th/scc.c)) +plt.colorbar() +plt.subplot(224) +plt.title('Bz: Simulation') +plt.imshow(make_2d(By_array)) +plt.colorbar() + +plt.savefig('Comparison.png') + +# Automatically check the results +def check(E, E_th, label): + print( 'Relative error in %s: %.3f'%( + label, abs(E-E_th).max()/E_th.max())) + assert np.allclose( E, E_th, atol=0.1*E_th.max() ) + +check( Ex_array, Ex_th, 'Ex' ) |